| Applied research of graphene oxide polypiperazine-amide composite nanofiltration in removal of dye wastewater |
| Authors: Wang Jin , Zhao Changwei 2, Wu zhen 3, Wang Tao 1, Li Xiang 1, Li Jiding 1* |
| Units: 1. The State Key Laboratory of Chemical Engineering, Department of Chemical Engineering, Tsinghua University, Beijing 100084, China; 2. State Key Laboratory of Environmental Aquatic Chemistry, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, China; 3. Ordos Redbud Innovation Institute, Ordos 017000. |
| KeyWords: Graphene oxide; polyamide; nanofiltration membrane; interfacial polymerization; dye. |
| ClassificationCode:TQ028.8 |
| year,volume(issue):pagination: 2016,36(6):86-94 |
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Abstract: |
| The anti-fouling graphene oxide modified polyamide composite nanofiltration membranes (GO-PA) were prepared through trimesoyl chloride (TMC) reacting with the GO dispersion in piperazine (PIP) aqueous solution via interfacial polymerization (IP) on the polyether sulfone (PES) UF substrates, and the prepared composite nanofiltration membrane was applied in removal of dye wastewater. The characterization results indicated that the negative charged membrane was successfully fabricated, and the mean effective pore size and the molecular weight cut-off (MWCO) were about 0.4 nm and 774 Da respectively. The pure water flux was 87.6 (L•m-2•h-1) under the operating pressure of 0.6 MPa, and the salt rejections of the membrane decrease in the order Na2SO4 (98.2%) > MgSO4 (96.5%)> NaCl (56.8%) > MgCl2 (50.5%). Fouling resistances of the membranes results revealed that the GO-PA membrane had improved the antifouling properties. The removal of the Silk Scarlet (GR GR), Direct Black 22 (DB), Sun Yellow (SY) was investigated in this study, the result suggested that the GO-PA membrane could effective remove the dyes and its rejection were above 98%. |
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Funds: |
| 基金项目:江苏先进生物与化学制造协同创新中心项目,国家自然科学基金项目(21576150);清华大学科学基金项目(20131089399);国家科技部科研院所技术开发研究专项资金(2013EG111129)。 |
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AuthorIntro: |
| 作者简介:王进(1991-),男,北京,硕士研究生,从事纳滤膜材料以及过程等方向研究;电子邮箱:wangjinhnu@163.com。 ?联系作者:李继定(1954-),男,清华大学教授,从事膜分离与分离膜等方向研究,E-mail:lijiding@mail.tsinghua.edu.cn。 |
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Reference: |
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[1] 冯淑湘, 染料废水处理方法研究进展 [J], 榆林学院学报, (2014). [2] 杨清香,贾振杰,杨敏, 微生物染料脱色研究进展 [J], 微生物学通报, (2006) 144-148. [3] 王怡中,陈梅雪,胡春, 光催化氧化与生物氧化组合技术对染料化合物降解研究 [J], 环境科学学报, (2000) 772-775. [4] 任南琪, 染料废水处理技术研究进展 [J], 化工学报, (2013) 54-64. [5] 刘冠凤, 聊城市地表水环境问题及对策研究 [D], 武汉理工大学, (2012). [6] 李家诊, 染料、染色工业废水处理 [M], 北京:化学工业出版社, (1997) 342-345. [7] A.M. El-Nashar, The desalting and recycling of wastewaters from textile dyeing operations using reverse osmosis, Desalination, 20 (1977) 267-277. [8] S.-H. Chen, D.-J. Chang, R.-M. Liou, C.-S. Hsu, S.-S. Lin, Preparation and separation properties of polyamide nanofiltration membrane, J. Appl. Polym. Sci., 83 (2002) 1112-1118. [9] 蔡慧如,高从锴, 纳滤技术治理染料废水的尝试[J], 环境工程, (2002) 2-25. [10] C.M. Raman L P, Rajagopalan N., Consider nanofiltration for membrane separation[J], Chem. Eng. Prog., (1994) 68-74. [11] E. P, Nanofiltration extends the range of membrane filtration [J], Environ Prog., (1998) 58-62. [12] 姜坪,刘红梅, 膜法染料废水处理试验研究 [J], 膜科学与技术, (2001) 50-52. [13] K.G.H. Wenzel H H, Reclamation and recycle of process water from reactive dyeing of cotton [J], Desalination, (1996) 195-203. [14] A.S. Ratana Jimratananon, Piyanoot Luangsowan, Performance evaluation of nanofiltration membrane for treatment of effluents containing reactive dye and salt [J], Desalination, (2000) 177-183. [15] J. Cadotte, K. Cobian, R. Forester, R. PETERSON, Continued evaluation of in-situ-formed condensation polymers for reverse osmosis membranes, (1976). [16] J.E. Cadotte, M.J. Steuck, R.J. Petersen, Research on in situ-formed condensation polymer for reverse osmosis membranes, (1978). [17] S. Singh, K.C. Khulbe, T. Matsuura, P. Ramamurthy, Membrane characterization by solute transport and atomic force microscopy, J. Membr. Sci., 142 (1998) 111-127. [18] W.R. Bowen, A.W. Mohammad, Characterization and Prediction of Nanofiltration Membrane Performance—A General Assessment, Chem. Eng. Res. Des., 76 (1998) 885-893. [19] S. Bano, A. Mahmood, S.-J. Kim, K.-H. Lee, Graphene oxide modified polyamide nanofiltration membrane with improved flux and antifouling properties, J. Mater. Chem. A, 3 (2015) 2065-2071. [20] 高.王.陈.徐.佳.马.准.苏. 燕,高从堦, 界面聚合法制备海藻酸钠/聚砜复合纳滤膜, 膜科学与技术, (2011) 27-30. [21] C. Zhou, Y. Shi, C. Sun, S. Yu, M. Liu, C. Gao, Thin-film composite membranes formed by interfacial polymerization with natural material sericin and trimesoyl chloride for nanofiltration, J. Membr. Sci., 471 (2014) 381-391. [22] 曾. 杨 静 , 王丽红 , 李德玲 , 王 伟, 界面聚合法制备聚哌嗪酰胺复合纳滤膜, 化学研究与应用, (2010) 456-460. [23] F.G. Donnan, Theory of membrane equilibria and membrane potentials in the presence of non-dialysing electrolytes. A contribution to physical-chemical physiology, J. Membr. Sci., 100 (1995) 45-55. [24] T. Wang, C. Zhao, P. Li, Y. Li, J. Wang, Fabrication of novel poly(m-phenylene isophthalamide) hollow fiber nanofiltration membrane for effective removal of trace amount perfluorooctane sulfonate from water, J. Membr. Sci., 477 (2015) 74-85. [25] 黄. 董永春, 酸性染料染色废水的脱色及其回用 [J], 纺织学报, 453-455 (2003). [26] 王. 董永春, 直接染料染色废水的脱色及其回用 [J], 工业水处理, 39-42 (2003). |
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